Powder Coating Storage - Best Practices for Longevity and Performance

Powder coatings are a popular finishing solution known for their durability, efficiency, reusability, environmental benefits, and cost-effectiveness. Thanks to these advantages, they are often considered a superior alternative to liquid paints. However, to fully harness their benefits, proper storage is essential. Maintaining optimal temperature, humidity, and contamination control is key to preserving the performance and application quality of powder coatings. Without the right conditions, issues such as agglomeration, poor fluidization, and inconsistent application can arise.

In this guide, we’ll explore the best practices for powder coating storage, including the impact of improper storage, transportation considerations, and key preservation techniques.

 

Why Proper Powder Coating Storage Matters

Powder coatings are complex formulations that contain resins, pigments, and additives designed to function under specific conditions. Improper storage of powder coatings can lead to degradation, causing problems such as uneven application, weak adhesion, and a compromised final finish. These issues can significantly affect the coating's durability and lifespan. To avoid these problems, proper powder storage practices should focus on:

• Ensuring consistency: Keeping powders in controlled environments preserves their flowability and particle size, leading to a smooth, even spray.
• Preventing clumping: Managing humidity and temperature fluctuations minimizes moisture absorption, reducing the risk of powder agglomeration.
• Protecting against contamination: Sealing powders away from dust, dirt, and airborne particles maintains purity and coating quality.
• Extending shelf life: Storing powders under stable conditions prevents premature degradation, ensuring they remain usable for longer periods.
• Optimizing application efficiency: Well-preserved powders reduce the risk of feed jams, inconsistent spray patterns, and other equipment issues & disruptions during coating application.

 

Key Factors in Powder Coating Storage

Every powder coating formulation has a specific shelf life, typically outlined in its Product Data Sheet (PDS). While most powders remain stable for 6–12 months under ideal conditions, some high-performance formulations can last even longer. However, improper storage—particularly exposure to heat, moisture, and contaminants—can cause premature degradation, leading to wasted product and costly rework.

Even before opening the box, poor storage conditions can silently compromise your powder coatings, resulting in clumping, poor fluidization, or coating defects. That’s why it’s crucial to understand exactly how heat, moisture, and contaminants impact your powder coatings—and how to effectively navigate these challenges to ensure optimal performance.

 

A. Temperature Control

Temperature plays a critical role in preserving the longevity of powder coatings. For optimal performance, they should be stored in a temperature-controlled environment between 60°F (15°C) and 77°F (25°C). But what happens when powder coatings are exposed to extreme temperatures? Let’s explore the potential risks of both high and low temperatures on storage conditions.

Too cold (< 60°F / 15°C)

Storing powder coatings in cold environments doesn’t directly degrade performance, but exposure to very low temperatures can make the powder “brittle”. When moved to a warmer, humid setting, brittle powder may absorb moisture, leading to potential application issues. To prevent condensation, always allow the powder to acclimate to room temperature before opening.

Too hot (> 77°F / 25°C)

On the other side of the temperature spectrum, when stored in extremely warm ambient conditions, powder may harden or form agglomerates, making it difficult to spray. Excess heat can also affect its chemical stability. So, avoid storing powders in hot shipping docks, delivery trucks, or warehouses without air conditioning.

Summarizing the effects of Improper Temperature Storage

• High heat (above 77°F/25°C) can cause premature softening, leading to clumping.
• Extremely cold temperatures can make the powder more brittle, though it generally recovers once brought back to room temperature.
• Storing powder inside a vehicle or an unventilated area in hot weather can be especially damaging, as temperatures can exceed 140°F (60°C), rendering the powder unusable.

 

B. Humidity Control

Powder coatings are highly sensitive to moisture, which can lead to clumping and cause performance issues such as poor adhesion, curing defects, orange peel, and difficulties in fluidization during spraying. To prevent these issues, it’s essential to store powder coatings in a humidity-controlled environment, ideally within 40%–60% relative humidity (RH).  

Let’s explore how both low and high humidity levels can impact the quality and application of your powder coatings, as well as some actionable tips to properly control humidity when storing powder coatings.

Low Humidity (0%–20%)

When powder coatings are stored in low humidity conditions, electrostatic buildup increases, reducing first-pass transfer efficiency during spraying. The excessive charge accumulation can even lead to sparking in hoses, posing a safety risk. Additionally, back-ionization may occur, causing an uneven coating application that compromises the end product.

High Humidity (80%–100%)

High humidity environments introduce a different set of challenges. Powder coatings can absorb moisture, leading to clumping and poor fluidization, making it difficult to achieve a smooth, consistent spray.

High humidity can also contribute to “Impact Fusion”.  This happens when powder coatings absorb moisture from the air, becoming more prone to clumping and sticking inside the feed system, hoses, and spray guns. This can increase friction and heat buildup, which leads to clogging and inconsistent powder flow. Additionally, excess moisture can cause powder particles to partially cure or soften, further increasing the likelihood of buildup within the equipment.

Excess humidity also causes electrostatic charges to dissipate too quickly, reducing transfer efficiency and leading to more waste. Furthermore, moisture trapped in the coating can result in film defects such as pinholes, gloss reduction, and adhesion failures, ultimately affecting the durability and appearance of the final product.

To maintain proper humidity levels, here are some suggestions:

• Store powders in a climate-controlled room.

• Keep powders in their original, sealed packaging when not in use.

• A humidity gauge should be used to regularly monitor the storage environment.

• If the area is prone to high humidity, dehumidifiers can help maintain a controlled atmosphere.

 

C. Protection from Sunlight and Contaminants

Direct exposure to sunlight can overheat powders, leading to premature degradation. Additionally, direct exposure to contaminants like dust, oil, or moisture can compromise powder flow and application quality.

Best Practices to Prevent Contamination:

• Store powders in sealed containers or their original packaging.
• Store in an enclosed, clean area away from potential pollutants.
• If using a hopper-fed powder system, ensure the hopper is sealed when not in use.
• Always wear gloves when handling powder coatings to prevent the transfer of moisture, oils, or contaminants from your hands.

 

Preserving the Physical Properties of Powder Coatings - Managing Agglomeration

Even when stored correctly, the physical properties of powder coatings can change over time. Agglomeration—the formation of clumps—can occur due to moisture accumulation or improper stock management, leading to spray inconsistencies such as gun surging. To prevent and manage agglomeration effectively, here are some suggestions to consider:

• Store powder coatings in a dry, ventilated area to minimize moisture absorption.
• Ensure containers remain sealed when not in use to prevent exposure to humidity.
• During transportation and handling, avoid prolonged pressure on lower layers by reversing the back pressure at the base, preventing compression and caking.
• Before application, gently roll the sealed liner to redistribute the powder.
• If moisture has been absorbed, allow the powder to acclimate in an open container until humidity stabilizes.